Can you get hundreds of thousands of transactions per second on an L3 to an L2 to Ethereum given that constraint of the 83 or I'm just trying to like figure out what we can actually do without, like, if we didn't have icon basically. Yes, there are transaction compression methods which basically like compress each transaction to like a fewbytes even instead of normally a transaction size is 200 bytes. So if you did that, basically 83 kilobytes divided by 4 bytes is like 20,000 transactions per second. But this is purely assuming there are financial transactions that can be represented in a few bytes. And then this calculation doesn't hold up for non-financial use cases.
Sreeram Kannan, Founder of EigenLayer, joins this episode to talk about the innovative power that EigenLayer is bringing to Ethereum.
In this episode we discuss EigenLayer’s data availability layer for ETH L2s to roll down to, which saves costs and solves congestion issues and EigenLayer’s re-staking layer which allows ETH stakers to opt in to support new use cases, earning more yield while accepting more slashing conditions, instead of apps having to roll their own security.
Sreeram is extremely smart (his academic papers here), I learned a ton during this episode and I hope you do as well. Please share your thoughts and favorite parts of the episode with us on Twitter.
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